SPRS797F November 2012 – September 2021 TMS320F28050 , TMS320F28051 , TMS320F28052 , TMS320F28052F , TMS320F28052M , TMS320F28053 , TMS320F28054 , TMS320F28054F , TMS320F28054M , TMS320F28055
PRODUCTION DATA
TERMINAL | I/O/Z(1) | DESCRIPTION | |
---|---|---|---|
NAME | PN PIN NO. |
||
JTAG | |||
TRST | 9 | I | JTAG test reset with internal pulldown (PD). TRST, when driven high, gives the scan system control of the operations of the device. If this signal is not connected or driven low, the device operates in its functional mode, and the test reset signals are ignored. NOTE:TRST is an active high test pin and must be maintained low at all times during normal device operation. An external pulldown resistor is required on this pin. The value of this resistor should be based on drive strength of the debugger pods applicable to the design. A 2.2-kΩ resistor generally offers adequate protection. Because the value of the resistor is application-specific, TI recommends that each target board be validated for proper operation of the debugger and the application. (↓) |
TCK | See GPIO38 | I | See GPIO38. JTAG test clock with internal pullup. (↑) |
TMS | See GPIO36 | I | See GPIO36. JTAG test-mode select (TMS) with internal pullup. This serial control input is clocked into the TAP controller on the rising edge of TCK.. (↑) |
TDI | See GPIO35 | I | See GPIO35. JTAG test data input (TDI) with internal pullup. TDI is clocked into the selected register (instruction or data) on a rising edge of TCK. (↑) |
TDO | See GPIO37 | O/Z | See GPIO37. JTAG scan out, test data output (TDO). The contents of the selected register (instruction or data) are shifted out of TDO on the falling edge of TCK. (8 mA drive) |
FLASH | |||
TEST2 | 39 | I/O | Test Pin. Reserved for TI. Must be left unconnected. |
CLOCK | |||
XCLKOUT | See GPIO18 | O/Z | See GPIO18. Output clock derived from SYSCLKOUT. XCLKOUT is either the same frequency, one-half the frequency, or one-fourth the frequency of SYSCLKOUT. The value of XCLKOUT is controlled by bits 1:0 (XCLKOUTDIV) in the XCLK register. At reset, XCLKOUT = SYSCLKOUT/4. The XCLKOUT signal can be turned off by setting XCLKOUTDIV to 3. The mux control for GPIO18 must also be set to XCLKOUT for this signal to propogate to the pin. |
XCLKIN | See GPIO19 and GPIO38 | I | See GPIO19 and GPIO38. External oscillator input. Pin source for
the clock is controlled by the XCLKINSEL bit in the XCLK register,
GPIO38 is the default selection. This pin feeds a clock from an
external 3.3-V oscillator. In this case, the X1 pin, if available,
must be tied to GND and the on-chip crystal oscillator must be
disabled through bit 14 in the CLKCTL register. If a
crystal/resonator is used, the XCLKIN path must be disabled by bit
13 in the CLKCTL register. NOTE: Designs that use the GPIO38/TCK/XCLKIN pin to supply an external clock for normal device operation may need to incorporate some hooks to disable this path during debug using the JTAG connector. This action is to prevent contention with the TCK signal, which is active during JTAG debug sessions. The zero-pin internal oscillators may be used during this time to clock the device. |
X1 | 52 | I | On-chip 1.8-V crystal-oscillator input. To use this oscillator, a quartz crystal or a ceramic resonator must be connected across X1 and X2. In this case, the XCLKIN path must be disabled by bit 13 in the CLKCTL register. If this pin is not used, this pin must be tied to GND. (I) |
X2 | 51 | O | On-chip crystal-oscillator output. A quartz crystal or a ceramic resonator must be connected across X1 and X2. If X2 is not used, X2 must be left unconnected. (O) |
RESET | |||
XRS | 8 | I/OD | Device Reset (in) and Watchdog Reset (out). These devices have a built-in power-on reset (POR) and brownout reset (BOR) circuitry. During a power-on or brownout condition, this pin is driven low by the device. An external circuit may also drive this pin to assert a device reset. This pin is also driven low by the MCU when a watchdog reset occurs. During watchdog reset, the XRS pin is driven low for the watchdog reset duration of 512 OSCCLK cycles. A resistor with a value from 2.2 kΩ to 10 kΩ should be placed between XRS and VDDIO. If a capacitor is placed between XRS and VSS for noise filtering, it should be 100 nF or smaller. These values will allow the watchdog to properly drive the XRS pin to VOL within 512 OSCCLK cycles when the watchdog reset is asserted. Regardless of the source, a device reset causes the device to terminate execution. The program counter points to the address contained at the location 0x3F FFC0. When reset is deactivated, execution begins at the location designated by the program counter. The output buffer of this pin is an open-drain with an internal pullup. (↑) If this pin is driven by an external device, it should be done using an open-drain device. |
ADC, COMPARATOR, ANALOG I/O | |||
ADCINA7 | 24 | I | ADC Group A, Channel 7 input |
ADCINA6 (op-amp) |
23 | I | ADC Group A, Channel 6 input |
ADCINA5 | 10 | I | ADC Group A, Channel 5 input |
ADCINA4 | 11 | I | ADC Group A, Channel 4 input |
ADCINA3 (op-amp) |
12 | I | ADC Group A, Channel 3 input |
ADCINA2 | 13 | I | ADC Group A, Channel 2 input |
ADCINA1 (op-amp) |
14 | I | ADC Group A, Channel 1 input |
ADCINA0 | 18 | I | ADC Group A, Channel 0 input |
VREFOUT | Voltage Reference out from buffered DAC | ||
VREFHI | 19 | I | ADC External Reference – used when in ADC external reference mode and used as VREFOUT reference |
ADCINB7 (op-amp) |
31 | I | ADC Group B, Channel 7 input |
ADCINB6 (op-amp) |
29 | I | ADC Group B, Channel 6 input |
ADCINB5 | 28 | I | ADC Group B, Channel 5 input |
ADCINB4 (op-amp) |
26 | I | ADC Group B, Channel 4 input |
ADCINB3 | 25 | I | ADC Group B, Channel 3 input |
ADCINB2 | 16 | I | ADC Group B, Channel 2 input |
ADCINB1 (op-amp) |
17 | I | ADC Group B, Channel 1 input |
ADCINB0 | 30 | I | ADC Group B, Channel 0 input |
VREFLO | 22 | I | ADC Low Reference (always tied to ground) |
CPU AND I/O POWER | |||
VDDA | 20 | Analog Power Pin. Tie with a 2.2-μF capacitor (typical) close to the pin. | |
VSSA | 21 | Analog Ground Pin | |
VDD | 6 | CPU and Logic Digital Power Pins. When using internal VREG, place one 1.2-µF capacitor between each VDD pin and ground. Higher value capacitors may be used. | |
54 | |||
73 | |||
VDDIO | 38 | Digital I/O Buffers and Flash Memory Power Pin. Single supply source when VREG is enabled. Place a decoupling capacitor on each pin. The exact value should be determined by the system voltage regulation solution. | |
70 | |||
VSS | 7 | Digital Ground Pins | |
37 | |||
53 | |||
72 | |||
M1GND | 15 | Ground pin for amplifier (channels A1, A3, B1) | |
M2GND | 27 | Ground pin for amplifier (channels A6, B4, B6) | |
PFCGND | 32 | Ground pin for amplifier (channel B7) | |
VOLTAGE REGULATOR CONTROL SIGNAL | |||
VREGENZ | 71 | I | Internal voltage regulator (VREG) enable with internal pulldown. Tie directly to VSS (low) to enable the internal 1.8-V VREG. Tie directly to VDDIO (high) to disable the VREG and use an external 1.8-V supply. |
GPIO AND PERIPHERAL SIGNALS(2) | |||
GPIO0 | 69 | I/O/Z | General-purpose input/output 0 |
EPWM1A | O | Enhanced PWM1 Output A | |
Reserved | – | Reserved | |
Reserved | – | Reserved | |
GPIO1 | 68 | I/O/Z | General-purpose input/output 1 |
EPWM1B | O | Enhanced PWM1 Output B | |
Reserved | – | Reserved | |
CTRIPM1OUT | O | CTRIPM1 CTRIPxx output | |
GPIO2 | 67 | I/O/Z | General-purpose input/output 2 |
EPWM2A | O | Enhanced PWM2 Output A | |
Reserved | – | Reserved | |
Reserved | – | Reserved | |
GPIO3 | 66 | I/O/Z | General-purpose input/output 3 |
EPWM2B | O | Enhanced PWM2 Output B | |
SPISOMIA | I/O | SPI-A slave out, master in | |
Reserved | – | Reserved | |
GPIO4 | 63 | I/O/Z | General-purpose input/output 4 |
EPWM3A | O | Enhanced PWM3 output A | |
Reserved | – | Reserved | |
Reserved | – | Reserved | |
GPIO5 | 62 | I/O/Z | General-purpose input/output 5 |
EPWM3B | O | Enhanced PWM3 output B | |
SPISIMOA | I/O | SPI-A slave in, master out | |
ECAP1 | I/O | Enhanced Capture input/output 1 | |
GPIO6 | 50 | I/O/Z | General-purpose input/output 6 |
EPWM4A | O | Enhanced PWM4 output A | |
EPWMSYNCI | I | External ePWM sync pulse input | |
EPWMSYNCO | O | External ePWM sync pulse output | |
GPIO7 | 49 | I/O/Z | General-purpose input/output 7 |
EPWM4B | O | Enhanced PWM4 output B | |
SCIRXDA | I | SCI-A receive data | |
Reserved | – | Reserved | |
GPIO8 | 45 | I/O/Z | General-purpose input/output 8 |
EPWM5A | O | Enhanced PWM5 output A | |
Reserved | – | Reserved | |
ADCSOCAO | O | ADC start-of-conversion A | |
GPIO9 | 36 | I/O/Z | General-purpose input/output 9 |
EPWM5B | O | Enhanced PWM5 output B | |
SCITXDB | O | SCI-B transmit data | |
Reserved | – | Reserved | |
GPIO10 | 65 | I/O/Z | General-purpose input/output 10 |
EPWM6A | O | Enhanced PWM6 output A | |
Reserved | – | Reserved | |
ADCSOCBO | O | ADC start-of-conversion B | |
GPIO11 | 61 | I/O/Z | General-purpose input/output 11 |
EPWM6B | O | Enhanced PWM6 output B | |
SCIRXDB | I | SCI-B receive data | |
Reserved | – | Reserved | |
GPIO12 | 48 | I/O/Z | General-purpose input/output 12 |
TZ1 | I | Trip Zone input 1 | |
CTRIPM1OUT | O | CTRIPM1 CTRIPxx output | |
SCITXDA | O | SCI-A transmit data | |
Reserved | – | Reserved | |
GPIO13 | 76 | I/O/Z | General-purpose input/output 13 |
TZ2 | I | Trip zone input 2 | |
Reserved | – | Reserved | |
Reserved | – | Reserved | |
GPIO14 | 77 | I/O/Z | General-purpose input/output 14 |
TZ3 | I | Trip zone input 3 | |
CTRIPPFCOUT | O | CTRIPPFC output | |
SCITXDB | O | SCI-B transmit data | |
Reserved | – | Reserved | |
GPIO15 | 75 | I/O/Z | General-purpose input/output 15 |
TZ1 | I | Trip zone input 1 | |
CTRIPM1OUT | O | CTRIPM1 CTRIPxx output | |
SCIRXDB | I | SCI-B receive data | |
Reserved | – | Reserved | |
GPIO16 | 47 | I/O/Z | General-purpose input/output 16 |
SPISIMOA | I/O | SPI-A slave in, master out | |
EQEP1S | I/O | Enhanced QEP1 strobe | |
TZ2 | I | Trip Zone input 2 | |
GPIO17 | 44 | I/O/Z | General-purpose input/output 17 |
SPISOMIA | I/O | SPI-A slave out, master in | |
EQEP1I | I/O | Enhanced QEP1 index | |
TZ3 | I | Trip zone input 3 | |
CTRIPPFCOUT | O | CTRIPPFC output | |
GPIO18 | 43 | I/O/Z | General-purpose input/output 18 |
SPICLKA | I/O | SPI-A clock input/output | |
SCITXDB | O | SCI-B transmit data | |
XCLKOUT | O/Z | Output clock derived from SYSCLKOUT. XCLKOUT is either the same frequency, one-half the frequency, or one-fourth the frequency of SYSCLKOUT. The value of XCLKOUT is controlled by bits 1:0 (XCLKOUTDIV) in the XCLK register. At reset, XCLKOUT = SYSCLKOUT/4. The XCLKOUT signal can be turned off by setting XCLKOUTDIV to 3. The mux control for GPIO18 must also be set to XCLKOUT for this signal to propogate to the pin. | |
GPIO19 | 55 | I/O/Z | General-purpose input/output 19 |
XCLKIN | I | External Oscillator Input. The path from this pin to the clock block is not gated by the mux function of this pin. Care must be taken not to enable this path for clocking if this path is being used for the other periperhal functions | |
SPISTEA | I/O | SPI-A slave transmit enable input/output | |
SCIRXDB | I | SCI-B receive data | |
ECAP1 | I/O | Enhanced Capture input/output 1 | |
GPIO20 | 78 | I/O/Z | General-purpose input/output 20. Internal pullup enabled by default. |
EQEP1A | I | Enhanced QEP1 input A | |
EPWM7A | O | Enhanced PWM7 output A | |
CTRIPM1OUT | O | CTRIPM1 CTRIPxx output | |
GPIO21 | 79 | I/O/Z | General-purpose input/output 21. Internal pullup enabled by default. |
EQEP1B | I | Enhanced QEP1 input B | |
EPWM7B | O | Enhanced PWM7 output B | |
Reserved | – | Reserved | |
GPIO22 | 1 | I/O/Z | General-purpose input/output 22 |
EQEP1S | I/O | Enhanced QEP1 strobe | |
Reserved | – | Reserved | |
SCITXDB | O | SCI-B transmit data | |
GPIO23 | 80 | I/O/Z | General-purpose input/output 23 |
EQEP1I | I/O | Enhanced QEP1 index | |
Reserved | – | Reserved | |
SCIRXDB | I | SCI-B receive data | |
GPIO24 | 4 | I/O/Z | General-purpose input/output 24. Internal pullup enabled by default. |
ECAP1 | I/O | Enhanced Capture input/output 1 | |
EPWM7A | O | Enhanced PWM7 output A | |
Reserved | – | Reserved | |
GPIO25 | 46 | I/O/Z | General-purpose input/output 25 |
Reserved | – | Reserved | |
Reserved | – | Reserved | |
Reserved | – | Reserved | |
GPIO26 | 40 | I/O/Z | General-purpose input/output 26 |
Reserved | – | Reserved | |
SCIRXDC | I | SCI-C receive data | |
Reserved | – | Reserved | |
GPIO27 | 33 | I/O/Z | General-purpose input/output 27 |
Reserved | – | Reserved | |
SCITXDC | O | SCI-C transmit data | |
Reserved | – | Reserved | |
GPIO28 | 42 | I/O/Z | General-purpose input/output 28 |
SCIRXDA | I | SCI-A receive data | |
SDAA | I/OD | I2C data open-drain bidirectional port | |
TZ2 | I | Trip zone input 2 | |
GPIO29 | 41 | I/O/Z | General-purpose input/output 29 |
SCITXDA | O | SCI-A transmit data | |
SCLA | I/OD | I2C clock open-drain bidirectional port | |
TZ3 | I | Trip zone input 3 | |
CTRIPPFCOUT | O | CTRIPPFC output | |
GPIO30 | 35 | I/O/Z | General-purpose input/output 30. Internal pullup enabled by default. |
CANRXA | I | CAN receive | |
SCIRXDB | I | SCI-B receive data | |
EPWM7A | O | Enhanced PWM7 output A | |
GPIO31 | 34 | I/O/Z | General-purpose input/output 31. Internal pullup enabled by default. |
CANTXA | O | CAN transmit | |
SCITXDB | O | SCI-B transmit data | |
EPWM7B | O | Enhanced PWM7 output B | |
GPIO32 | 2 | I/O/Z | General-purpose input/output 32 |
SDAA | I/OD | I2C data open-drain bidirectional port | |
EPWMSYNCI | I | Enhanced PWM external sync pulse input | |
EQEP1S | I/O | Enhanced QEP1 strobe | |
GPIO33 | 3 | I/O/Z | General-Purpose Input/Output 33 |
SCLA | I/OD | I2C clock open-drain bidirectional port | |
EPWMSYNCO | O | Enhanced PWM external synch pulse output | |
EQEP1I | I/O | Enhanced QEP1 index | |
GPIO34 | 74 | I/O/Z | General-Purpose Input/Output 34 |
Reserved | – | Reserved | |
Reserved | – | Reserved | |
CTRIPPFCOUT | O | CTRIPPFC output | |
GPIO35 | 59 | I/O/Z | General-Purpose Input/Output 35 |
TDI | I | JTAG test data input (TDI) with internal pullup. TDI is clocked into the selected register (instruction or data) on a rising edge of TCK | |
Reserved | – | Reserved | |
Reserved | – | Reserved | |
Reserved | – | Reserved | |
GPIO36 | 60 | I/O/Z | General-Purpose Input/Output 36 |
TMS | I | JTAG test-mode select (TMS) with internal pullup. This serial control input is clocked into the TAP controller on the rising edge of TCK. | |
Reserved | – | Reserved | |
Reserved | – | Reserved | |
Reserved | – | Reserved | |
GPIO37 | 58 | I/O/Z | General-Purpose Input/Output 37 |
TDO | O/Z | JTAG scan out, test data output (TDO). The contents of the selected register (instruction or data) are shifted out of TDO on the falling edge of TCK (8 mA drive) | |
Reserved | – | Reserved | |
Reserved | – | Reserved | |
Reserved | – | Reserved | |
GPIO38 | 57 | I/O/Z | General-Purpose Input/Output 38 |
XCLKIN | I | External Oscillator Input. The path from this pin to the clock block is not gated by the mux function of this pin. Care must be taken to not enable this path for clocking if this path is being used for the other functions. | |
TCK | I | JTAG test clock with internal pullup | |
Reserved | – | Reserved | |
Reserved | – | Reserved | |
Reserved | – | Reserved | |
GPIO39 | 56 | I/O/Z | General-Purpose Input/Output 39 |
Reserved | – | Reserved | |
SCIRXDC | I | SCI-C receive data | |
CTRIPPFCOUT | O | CTRIPPFC output | |
GPIO40 | 64 | I/O/Z | General-Purpose Input/Output 40. Internal pullup enabled by default. |
EPWM7A | O | Enhanced PWM7 output A | |
Reserved | – | Reserved | |
Reserved | – | Reserved | |
GPIO42 | 5 | I/O/Z | General-Purpose Input/Output 42. Internal pullup enabled by default. |
EPWM7B | O | Enhanced PWM7 output B | |
SCITXDC | O | SCI-C transmit data | |
CTRIPM1OUT | O | CTRIPM1 CTRIPxx output |